Neuroergonomics

Neuroverse® Develops Games for Neural Performance Assessment and Practice Integrated in its Wearable BrainStation® Technology

Retrieved on: 
Wednesday, October 28, 2020

Integrated in its revolutionary, wearable BrainStation technology, this is accomplished by evaluating responses in associated well-known brain markers, such as event-related brain potentials (ERPs) and brain frequency modulations.

Key Points: 
  • Integrated in its revolutionary, wearable BrainStation technology, this is accomplished by evaluating responses in associated well-known brain markers, such as event-related brain potentials (ERPs) and brain frequency modulations.
  • https://www.neuroverseinc.com/
    Neuroverse is proud to have completed a successful study of one of our first games designed to enable users to track and practice visual attention, while evaluating their neural performance via modulations of well-established brain markers.
  • "Ongoing and future studies are investigating the use of our system in other aspects of neurocognitive assessment, including additional video games to assess brain performance.
  • Its BrainStation technology is a wearable brain interface that brings the missing piece for true mind/body balance solutions by integrating neurocognitive assessment, cognitive and mindfulness training, and sleep performance in a single, reliable and easy-to-use holistic system.

Brain-computer interfaces

Retrieved on: 
Thursday, February 27, 2020

POST - Parliamentary Office of Science and Technology

Key Points: 
  • POST - Parliamentary Office of Science and Technology

    Brain-Computer Interfaces (BCIs) measure brain activity and can be used to control digital devices.

  • The focus of BCI development has been on using the technology to allow patients to control assistive equipment such as wheelchairs or prostheses.
  • Beyond medicine they are under development for applications in entertainment, marketing and defence.
  • BCIs are a type of Neural Interface (NI), a broader family of devices that interact with an individuals brain and nervous system.

Brain-Computer Interfaces

Retrieved on: 
Wednesday, February 5, 2020

POST - Parliamentary Office of Science and Technology

Key Points: 
  • POST - Parliamentary Office of Science and Technology

    Brain-Computer Interfaces (BCIs) measure brain activity and can be used to control digital devices.

  • The focus of BCI development has been on using the technology to allow patients to control assistive equipment such as wheelchairs or prostheses.
  • Beyond medicine they are under development for applications in entertainment, marketing and defence.
  • BCIs are a type of Neural Interface (NI), a broader family of devices that interact with an individuals brain and nervous system.

First-ever successful mind-controlled robotic arm without brain implants

Retrieved on: 
Wednesday, June 19, 2019

Using a noninvasive brain-computer interface (BCI), researchers have developed the first-ever successful mind-controlled robotic arm exhibiting the ability to continuously track and follow a computer cursor.

Key Points: 
  • Using a noninvasive brain-computer interface (BCI), researchers have developed the first-ever successful mind-controlled robotic arm exhibiting the ability to continuously track and follow a computer cursor.
  • BCIs have been shown to achieve good performance for controlling robotic devices using only the signals sensed from brain implants.
  • Until now, however, BCIs successful in controlling robotic arms have used invasive brain implants.
  • Thus, when using only the brain to control a robotic arm, a noninvasive BCI doesn't stand up to using implanted devices.

First-ever successful mind-controlled robotic arm without brain implants

Retrieved on: 
Wednesday, June 19, 2019

Using a noninvasive brain-computer interface (BCI), researchers have developed the first-ever successful mind-controlled robotic arm exhibiting the ability to continuously track and follow a computer cursor.

Key Points: 
  • Using a noninvasive brain-computer interface (BCI), researchers have developed the first-ever successful mind-controlled robotic arm exhibiting the ability to continuously track and follow a computer cursor.
  • BCIs have been shown to achieve good performance for controlling robotic devices using only the signals sensed from brain implants.
  • Until now, however, BCIs successful in controlling robotic arms have used invasive brain implants.
  • Thus, when using only the brain to control a robotic arm, a noninvasive BCI doesn't stand up to using implanted devices.